Air conditioner

ABSTRACT

An air conditioner installable on a window frame and having a ventilation function. The air conditioner comprises a cabinet comprising a first inlet hole, a second inlet hole and a third inlet hole, a first heat exchanger provided inside the cabinet to allow indoor air, which is introduced through the first inlet hole, to exchange heat, a second heat exchanger provided inside the cabinet to allow outdoor air, which is introduced through the second inlet hole, to exchange heat, and a third heat exchanger provided inside the cabinet to be located between the first heat exchanger and the second heat exchanger in a height direction of the cabinet, and provided to allow outdoor air, which is introduced through the third inlet hole, and condensed water, which is generated in the first heat exchanger, to exchange heat with each other.

CROSS-REFERENCE TO RELATED APPLICATION

This application is a U.S. National Stage Application, which claims thebenefit under 35 U.S.C. § 371 of International Patent Application No.PCT/KR2020/001122, filed on Jan. 22, 2020, which claims the prioritybenefit of Korean Patent Application No. 10-2019-0011054, filed on Jan.29, 2019, in the Korean Patent and Trademark Office, the disclosures ofwhich are hereby incorporated by reference in their entirety.

BACKGROUND Field

The present disclosure relates to an air conditioner, and moreparticularly, to an air conditioner capable of being installed on awindow frame and having a ventilation function.

Description of the Related Art

In general, an air conditioner is a device that uses a refrigerationcycle to control temperature, humidity, and airflow distribution, and atthe same time to remove dust from the air to achieve the comfortableenvironment for human activity. The refrigeration cycle may include acompressor, a condenser, an evaporator, an expansion valve, a blowerfan, etc. as main components.

The air conditioner may be classified into a separate type airconditioner in which an indoor unit and an outdoor unit are separatelyinstalled, and an integrated air conditioner in which an indoor unit andan outdoor unit are installed together in one cabinet.

In some houses, it is difficult to install a separate type airconditioner because there is no space or structure for installing anoutdoor unit. In such a case, an integrated air conditioner that isinstallable on a window frame may be considered. However, if theintegrated air conditioner is installed on the window frame, it maycause difficulties in that the window is not closed and the window frameor the exterior of the house is damaged.

Particularly, in a case of a new apartment, it is illegal to install anoutdoor unit on the outside of a window, and thus it is not easy toinstall an air conditioner unless an air conditioner is installed whenan apartment is built.

The present disclosure is directed to providing an air conditionerhaving a slim shape so as to be easily installed on a window frame.

Further, the present disclosure is directed to providing an airconditioner having a ventilation function to maintain a comfortableindoor environment.

SUMMARY

One aspect of the present disclosure provides an air conditionerincluding a cabinet including a first inlet hole, a second inlet holeand a third inlet hole, a first heat exchanger provided inside thecabinet to allow indoor air, which is introduced through the first inlethole, to exchange heat, a second heat exchanger provided inside thecabinet to allow outdoor air, which is introduced through the secondinlet hole, to exchange heat, and a third heat exchanger provided insidethe cabinet to be located between the first heat exchanger and thesecond heat exchanger in a height direction of the cabinet, and providedto allow outdoor air, which is introduced through the third inlet hole,and condensed water, which is generated in the first heat exchanger, toexchange heat with each other.

The condensed water generated in the first heat exchanger may betransferred to the second heat exchanger through the third heatexchanger.

Condensed water passed through the first heat exchanger and condensedwater passed through the second heat exchanger may be discharged to anoutside of the air conditioner in response to that an operation of theair conditioner stops.

The first heat exchanger may include a water collecting panel in whichcondensed water generated in the first heat exchanger is collected, andthe condensed water collected in the water collecting panel may be movedto the third heat exchanger in response to that the third inlet hole isopened.

The second heat exchanger may include a distribution panel including aplurality of condensate distribution holes to allow condensed water,which passed through the third heat exchanger, to be distributed to thesecond heat exchanger, the distribution panel disposed on an upper endof the second heat exchanger, and a water collecting panel disposed at alower end of the second heat exchanger to collect condensed water passedthrough the second heat exchanger.

The air conditioner may further include a damper configured toselectively open and close the third inlet hole.

The air conditioner may further include a filter replaceably disposedbetween the damper and the third heat exchanger.

The cabinet may further include a first outlet hole provided to allowair, which passed through the first heat exchanger, to be dischargedinto an indoor space. The air conditioner may further include a firstduct provided to connect the first inlet hole, the third inlet hole, andthe first outlet hole so as to allow the indoor air, which is introducedthrough the first inlet hole, to be discharged to the first outlet hole,and to allow the outdoor air, which is introduced through the thirdinlet hole, to be discharged to the first outlet hole.

The air conditioner may further include a first blower fan installed inthe first duct to blow the air, which passed through the first heatexchanger, to the first outlet hole.

The cabinet may further include a second outlet hole provided to allowair, which passed through the second heat exchanger, to be discharged toan outdoor space. The air conditioner may further include a second ductprovided to connect the second inlet hole to the second outlet hole, soas to allow the outdoor air, which is introduced through the secondinlet hole, to be discharged to the second outlet hole.

The first duct and the second duct may be separated from each other toprevent air moving along the first duct and air moving along the secondduct from mixing with each other.

The air conditioner may further include a second blower fan installed inthe second duct to blow the air, which passed through the second heatexchanger, to the second outlet hole.

The air conditioner may further include a compressor provided inside thecabinet to be located below the second heat exchanger in the heightdirection of the cabinet, the compressor connected to the first heatexchanger and the second heat exchanger, respectively.

Another aspect of the present disclosure provides an air conditionerincluding a cabinet including a first inlet hole, a second inlet holeand a third inlet hole configured to be opened and closed, a first heatexchanger provided to allow indoor air, which is introduced through thefirst inlet hole, to exchange heat, a second heat exchanger provided toallow outdoor air, which is introduced through the second inlet hole, toexchange heat, and a third heat exchanger located between the first heatexchanger and the second heat exchanger, and provided to allow outdoorair, which is introduced through the third inlet hole, and condensedwater, which is generated in the first heat exchanger, to exchange heatwith each other in response to that the third inlet hole is opened.

The first heat exchanger, the second heat exchanger, and the third heatexchanger may be provided inside cabinet so that the third heatexchanger is located between the first heat exchanger and the secondheat exchange in a height direction of the cabinet.

The condensed water generated in the first heat exchanger may betransferred to the second heat exchanger through the third heatexchanger.

The air conditioner may further include a damper configured toselectively open and close the third inlet hole.

The air conditioner may further include a filter replaceably disposedbetween the damper and the third heat exchanger.

The cabinet may further include a first outlet hole provided to allowair, which passed through the first heat exchanger, to be discharged toan indoor space. The air conditioner may further include a first flowpath provided to allow indoor air, which is introduced into the firstinlet hole, to be discharged to the first outlet hole by passing throughthe first heat exchanger, and a second flow path provided to allowoutdoor air, which is introduced into the third inlet hole, to bedischarged to the first outlet hole by sequentially passing through thethird heat exchanger and the first heat exchanger, and connected to thefirst flow path through the first heat exchanger.

The cabinet may further include a second outlet hole provided to allowair, which passed through the second heat exchanger, to be discharged toan outdoor space. The air conditioner may further include a third flowpath provided to allow outdoor air, which is introduced into the secondinlet hole, to be discharged to the second outlet hole by passingthrough the second heat exchanger.

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other aspects, features, and advantages of certainembodiments of the present disclosure will be more apparent from thefollowing detailed description taken in conjunction with theaccompanying drawings, in which:

FIG. 1 is a schematic view illustrating a state in which an airconditioner according to one embodiment of the present disclosure isinstalled.

FIG. 2 is a view illustrating an installation structure of the airconditioner according to one embodiment of the present disclosure whenviewed from an angle different from FIG. 1 .

FIG. 3 is a schematic view illustrating the air conditioner according toone embodiment of the present disclosure.

FIG. 4 is a schematic view illustrating an internal structure of the airconditioner according to one embodiment of the present disclosure.

FIG. 5 is a schematic view illustrating an internal structure of an airconditioner according to another embodiment of the present disclosure.

DETAILED DESCRIPTION

Hereinafter, exemplary embodiments of the present disclosure will bedescribed in detail with reference to the accompanying drawings. On theother hand, In the following detailed description, the terms of “frontend”, “rear end”, “upper portion”, “lower portion”, “upper end”, “lowerend” and the like may be defined by the drawings, but the shape and thelocation of the component is not limited by the term.

It is possible to implement ease of installation of an air conditioneron a window frame by arranging a first heat exchanger, a second heatexchanger, a third heat exchanger, and a compressor in one slim cabinetextending long in a height direction of a window.

It is possible to implement an air conditioner including a ventilatingfunction as well as heating and cooling functions by allowing condensedwater, which is generated in a first heat exchanger, to exchange heatwith outdoor air, which is introduced through a third inlet hole, in athird heat exchanger.

A refrigeration cycle forming an air conditioner may include acompressor, a condenser, an expansion valve, and an evaporator. Therefrigeration cycle circulates through a series of processes includingcompression-condensation-expansion-evaporation and may supplyconditioned air that exchanges heat with a refrigerant.

The compressor compresses refrigerant gas into a high-temperature andhigh-pressure state and discharges the high-temperature andhigh-pressure refrigerant gas. The discharged refrigerant gas flows intothe condenser. The condenser condenses the compressed refrigerant into aliquid state, and discharges heat to the environment through acondensation process.

The expansion valve expands the high-temperature and high-pressureliquid refrigerant, which is condensed in the condenser, into alow-pressure liquid refrigerant. The evaporator evaporates therefrigerant expanded in the expansion valve, and returns the refrigerantgas in the low-temperature and low-pressure state to the compressor. Theevaporator may obtain the refrigeration effect by heat exchange with anobject to be cooled by using the latent heat of evaporation of therefrigerant. By the refrigeration cycle, the air conditioner may controla temperature of an indoor space.

An outdoor unit of the air conditioner may include the compressor and anoutdoor heat exchanger in the refrigeration cycle. An indoor unit of theair conditioner may include an indoor heat exchanger. The expansionvalve may be included in any one of the indoor unit and the outdoorunit. The indoor heat exchanger may serve as any one of the condenserand the evaporator. The outdoor heat exchanger may serve as the other ofthe condenser and the evaporator. As an example, in response to that theindoor heat exchanger functions as the condenser, the air conditionermay be a heater. In response to that the indoor heat exchanger functionsas the evaporator, the air conditioner may be a cooler.

The present disclosure relates to an integrated air conditioner in whichan indoor unit and an outdoor unit are installed together in onecabinet. In the case of the integrated air conditioner, the condenserand the evaporator may be installed together in one cabinet.

The air conditioner according to the present disclosure may be anintegrated air conditioner having at least one of a cooling function anda heating function. Hereinafter a case in which the air conditioner ofthe present disclosure is an integrated air conditioner having a coolingfunction will be mainly described.

FIG. 1 is a schematic view illustrating a state in which an airconditioner according to one embodiment of the present disclosure isinstalled, and FIG. 2 is a view illustrating an installation structureof the air conditioner according to one embodiment of the presentdisclosure when viewed from an angle different from FIG. 1 . FIG. 3 is aschematic view illustrating the air conditioner according to oneembodiment of the present disclosure. For reference, “D” in FIG. 1refers to a door configured to open or close an indoor space 300. Forreference, a direction of height H of a window 320, a height H of an airconditioner 1, and a height H of a cabinet 10 refer to the samedirection.

As illustrated in FIGS. 1 to 3 , the air conditioner 1 may be installedadjacent to the window 320 to maintain the indoor space 300 in acomfortable condition. As an example, the air conditioner 1 may beinstalled on a window frame 330 so as to be adjacent to the window 320.Alternatively, the air conditioner 1 may be installed on a wall 310,which defines the indoor space 300, so as to be adjacent to the window320.

The air conditioner 1 may be installed to protrude to the outside of theindoor space 300. However, the installation type of the air conditioner1 is not limited to the above example and thus may vary. As an example,the air conditioner 1 may be installed to protrude to an inside of theindoor space 300. Alternatively, the air conditioner 1 may be installedin such a way that an outer surface 1 a of the air conditioner 1 facingthe outside of the indoor space 300 is located on the same plane as anouter surface 310 a of the wall 310 defining the indoor space 300 and aninner surface 1 b of the air conditioner 1 facing the inside of theindoor space 300 is located on the same plane as an inner surface 310 bof the wall 310 defining the indoor space 300.

The air conditioner 1 may have a slim shape extending in the heightdirection H of the window 320. As an example, the air conditioner 1 mayhave a slim hexahedral shape extending in the height direction H of thewindow 320. Because the slim-shaped air conditioner 1 does not require alarge installation space, the air conditioner 1 may be installed on awindow frame 330 without greatly occupying the installation space of thewindow 320. However, the shape of the air conditioner 1 is not limitedto a hexahedron and may vary.

A height h1 of the air conditioner 1 may be less than a height h2 of thewindow 320. In this case, a space between the air conditioner 1 and thewindow frame 330 in the height direction H of the window 320 may befilled with a finishing material 500. Alternatively, the height h1 ofthe air conditioner 1 may be the same as the height h2 of the window320.

The air conditioner 1 may include the cabinet 10 forming an exterior ofthe air conditioner 1. The cabinet 10 may include a top cabinet 20 inwhich a first heat exchanger 80 (refer to FIG. 4 ) is disposed, a middlecabinet 30 (refer to FIG. 4 ) in which a second heat exchanger 90 (referto FIG. 4 ) is disposed, and a bottom cabinet 40 in which a compressor170 (refer to FIG. 4 ) is disposed. The middle cabinet 30 may bepositioned between the top cabinet 20 and the bottom cabinet 40 withrespect to the height direction H of the window 320.

The top cabinet 20 may include a top cabinet body 21 including an openside facing the inside of the indoor space 300 and a top cabinet cover22 provided to cover the open side of the top cabinet body 21. The topcabinet cover 22 may be removably coupled to the top cabinet body 21.

The middle cabinet 30 may include a middle cabinet body 31 including oneopen side facing the outside of the indoor space 300 and a middlecabinet cover 32 provided to cover the open side of the middle cabinetbody 31. The middle cabinet cover 32 may be removably coupled to themiddle cabinet body 31.

The air conditioner 1 may further include a first inlet hole 51 providedto allow indoor air to be introduced and a first outlet hole 52 providedto allow the indoor air introduced into the first inlet hole 51 to bedischarged. The first inlet hole 51 and the first outlet hole 52 may beformed in the cabinet 10. Particularly, the first inlet hole 51 and thefirst outlet hole 52 may be formed on one surface of the cabinet 10facing the inside of the indoor space 300. More particularly, the firstinlet hole 51 and the first outlet hole 52 may be formed on the topcabinet cover 22 of the top cabinet 20. It is appropriate that the firstoutlet hole 52 is located above the first inlet hole 51 in the heightdirection H of the window 320.

The air conditioner 1 may further include a second inlet hole 61provided to allow outdoor air to be introduced and the second outlethole 62 provided to allow the outdoor air introduced into the secondinlet hole 61 to be discharged. The second inlet hole 61 and the secondoutlet hole 62 may be formed in the cabinet 10. Particularly, the secondinlet hole 61 and the second outlet hole 62 may be formed on one surfaceof the cabinet 10 facing the outside of the indoor space 300. Moreparticularly, the second inlet hole 61 and the second outlet hole 62 maybe formed on the middle cabinet cover 32 of the middle cabinet 30. It isappropriate that the second inlet hole 61 is located above the secondoutlet hole 62 in the height direction H of the window 320. In otherwords, the second outlet hole 62 may be located below the second heatexchanger 90 in the height direction H of the window 320 so as toprevent condensation heat, which may be generated in the second heatexchanger 90, from flowing into a third inlet hole 71. The condensationheat, which may be generated in the second heat exchanger 90, may bedischarged to the outside of the indoor space 300 through the secondoutlet hole 62.

The air conditioner 1 may further include the third inlet hole 71provided to perform a ventilation function. The third inlet hole 71 maybe formed in the cabinet 10 to allow outdoor air to be introduced.Particularly, the third inlet hole 71 may be formed on one surface ofthe cabinet 10 facing the outside of the indoor space 300. Moreparticularly, the third inlet hole 71 may be formed on one surface ofthe top cabinet body 21 of the top cabinet 20 facing the outside of theindoor space 300. It is appropriate that the third inlet hole 71 islocated between the first inlet hole 51 and the second inlet hole 61 inthe height direction H of the window 320. For ventilation of the indoorspace 300, the outdoor air introduced into the third inlet hole 71 maybe discharged through the first outlet hole 52.

FIG. 4 is a schematic view illustrating an internal structure of the airconditioner according to one embodiment of the present disclosure.

As illustrated in FIG. 4 , the air conditioner 1 may further include thefirst heat exchanger 80 provided inside the cabinet 10 to allow indoorair, which is introduced through the first inlet hole 51, to exchangeheat. Particularly, the first heat exchanger 80 may be provided insidethe top cabinet 20. The first heat exchanger 80 may be used as anevaporator. The indoor air introduced into the first inlet hole 51exchanges heat with the refrigerant in the first heat exchanger 80 andthen is discharged into the indoor space 300 through the first outlethole 52.

The first heat exchanger 80 may be disposed inside the top cabinet 20 tobe inclined. The first heat exchanger 80 may be disposed inside the topcabinet 20 in such a way that the first heat exchanger 80 is inclined tothe indoor space 300 or the outdoor space with respect to a referenceline L1 that extends in the height direction H of the window 320 to passan upper end of the first heat exchanger 80. By the arrangement of thefirst heat exchanger 80 as described above, the heat exchange efficiencyof the first heat exchanger 80 may be improved.

The first heat exchanger 80 may include a refrigerant pipe 81, throughwhich the refrigerant flows, a plurality of fins 82 coupled to an outercircumferential surface of the refrigerant pipe 81, and a watercollecting panel 83 in which condensed water generated in the first heatexchanger 80 is collected. The water collecting panel 83 may be disposedat a lower end of the first heat exchanger 80 to facilitate collectionof the condensed water generated in the first heat exchanger 80. Inother words, the water collecting panel 83 may be disposed at a lowerend of the plurality of fins 82 to collect the condensed water, which isformed on a surface of the plurality of fins 82, by gravity.

The air conditioner 1 may further include a first drain hose 180 coupledto the water collecting panel 83 to allow the condensed water generatedin the first heat exchanger 80 to be discharged. The condensed watercollected in the water collecting panel 83 may be naturally dischargedthrough the first drain hose 180.

The air conditioner 1 may further include the second heat exchanger 90provided inside the cabinet 10 to allow the outdoor air introduced intothe second inlet hole 61 to exchange heat. Particularly, the second heatexchanger 90 may be provided inside the middle cabinet 30. The secondheat exchanger 90 may be used as a condenser. The outdoor air introducedinto the second inlet hole 61 exchanges heat with the refrigerant in thesecond heat exchanger 90, and then is discharged to the outside of theindoor space 300 through the second outlet hole 62.

The second heat exchanger 90 may be disposed inside the middle cabinet30 to be inclined. The second heat exchanger 90 may be disposed insidethe middle cabinet 30 in such a way that the second heat exchanger 90 isinclined to the indoor space 300 or the outdoor space with respect to areference line L2 that extends in the height direction H of the window320 to pass an upper end of the second heat exchanger 90. By thearrangement of the second heat exchanger 90 as described above, the heatexchange efficiency of the second heat exchanger 90 may be improved.

The second heat exchanger 90 may include a refrigerant pipe 91, throughwhich the refrigerant flows, a plurality of fins 92 coupled to an outercircumferential surface of the refrigerant pipe 91, a distribution panel94 provided to distribute condensed water, which passed through a thirdheat exchanger 100, to the second heat exchanger 90, and a watercollecting panel 93 in which condensed water, which passed through thesecond heat exchanger 90, is collected. The distribution panel 94 may bedisposed at an upper end of the second heat exchanger 90 and the watercollecting panel 93 may be disposed at a lower end of the second heatexchanger 90. In other words, the distribution panel 94 may be disposedat an upper end of the plurality of fins 92, and the water collectingpanel 93 may be disposed at a lower end of the plurality of fins 92. Thedistribution panel 94 may include a plurality of condensate distributionholes 94 a. The condensed water that passed through the third heatexchanger 100 may be evenly distributed to the second heat exchanger 90by passing through the plurality of condensate distribution holes 94 aof the distribution panel 94. The condensed water that passed throughthe plurality of condensate distribution holes 94 a flows on a surfaceof the plurality of fins 92 by gravity and then finally is collected inthe water collecting panel 93.

The air conditioner 1 may further include a second drain hose 190coupled to the water collecting panel 93 to allow the condensed waterpassed through the second heat exchanger 90 to be discharged. Thecondensed water collected in the water collecting panel 93 may benaturally discharged through the second drain hose 190.

The air conditioner 1 may further include the third heat exchanger 100disposed inside the cabinet 10 to be positioned between the first heatexchanger 80 and the second heat exchanger 90 in the height direction Hof the window 320. Particularly, the third heat exchanger 100 may bedisposed in the top cabinet 20 together with the first heat exchanger80. The outdoor air introduced into the third inlet hole 71 and thecondensed water generated in the first heat exchanger 80 may exchangeheat with each other in the third heat exchanger 100. The outdoor airintroduced through the third inlet hole 71 may be cooled by exchangingheat with the condensed water generated in the first heat exchanger 80,and then discharged through the first outlet hole 52 so as to be usedfor ventilating the indoor space 300.

The air conditioner 1 may further include a damper 110 configured toselectively open and close the third inlet hole 71. The damper 110 mayselectively open and close the third inlet hole 71 by various methodssuch as a rotation method and a sliding method.

The air conditioner 1 may further include a filter 120 replaceablydisposed between the damper 110 and the third heat exchanger 100. Theoutdoor air introduced through the third inlet hole 71 may reach thethird heat exchanger 100 through the filter 120.

The air conditioner 1 may further include a first duct 130 provided inthe top cabinet 20. The indoor air introduced into the first inlet hole51 may be discharged to the first outlet hole 52 through the first duct130. The outdoor air introduced into the third inlet hole 71 may bedischarged to the first outlet hole 52 through the first duct 130. Thefirst duct 130 may connect the first inlet hole 51, the third inlet hole71, and the first outlet hole 52.

The air conditioner 1 may further include a second duct 140 provided inthe middle cabinet 30. The outdoor air introduced into the second inlethole 61 may be discharged to the second outlet hole 62 through thesecond duct 140. The second duct 140 may connect the second inlet hole61 and the second outlet hole 62.

The first duct 130 and the second duct 140 may be separated from eachother to prevent mixing of the air moving along the first duct 130 withthe air moving along the second duct 140. That is, the first duct 130and the second duct 140 may be provided to not communicate with eachother.

The air conditioner 1 may further include a first blower fan 150configured to blow the air, which passed through the first heatexchanger 80, to the first outlet hole 52. The first blower fan 150 maybe installed in the first duct 130. It is appropriate that the firstblower fan 150 is installed in the first duct 130 to face the firstoutlet hole 52. The first blower fan 150 may include a sirocco fan.However, the type of the first blower fan 150 is not limited to theabove example and thus may vary.

The air conditioner 1 may further include a second blower fan 160configured to blow the air, which passed through the second heatexchanger 90, to the second outlet hole 62. The second blower fan 160may be installed in the second duct 140. It is appropriate that thesecond blower fan 160 is installed in the second duct 140 to face thesecond outlet hole 62. The second blower fan 160 may include a siroccofan, an axial fan, and a cross flow fan. However, the type of the secondblower fan 160 is not limited to the above example and thus may vary.

The air conditioner 1 may further include the compressor 170 providedinside the cabinet 10 to be positioned below the second heat exchanger90 in the height direction H of the window 320. The compressor 170 maybe provided inside the bottom cabinet 40. The compressor 170 may beconnected to the first heat exchanger 80 and the second heat exchanger90. The compressor 170 may include a rotary compressor, a reciprocatingcompressor, and a scroll compressor. However, the type of the compressor170 is not limited to the above example and thus may vary.

The air conditioner 1 may further include a sensor (not shown)configured to detect the surrounding environment to determine whether toperform ventilation or not. The sensor may include an indoor temperaturesensor, an outdoor temperature sensor, a carbon dioxide sensor, a dustsensor, and an odor sensor. However, the type of the sensor is notlimited to the above example and thus may vary.

The air conditioner 1 may further include a first flow path 210 providedto allow the indoor air, which is introduced into the first inlet hole51, to be discharged to the first outlet hole 52 by passing through thefirst heat exchanger 80.

The air conditioner 1 may further include a second flow path 220provided to allow the outdoor air, which is introduced to the thirdinlet hole 71, to be discharged to the first outlet hole 52 bysequentially passing through the third heat exchanger 100 and the firstheat exchanger 80. The first flow path 210 and the second flow path 220may be in contact with each other in the first heat exchanger 80.

The air conditioner 1 may further include a third flow path 230 providedto allow the outdoor air, which is introduced to the second inlet hole61, to be discharged to the second outlet hole 62 by passing through thesecond heat exchanger 90. The third flow path 230 may be separated fromthe first flow path 210 and the second flow path 220. That is, the thirdflow path 230 may be provided not to be in contact with the first flowpath 210 and the second flow path 220.

The condensed water generated in the first heat exchanger 80 may bedischarged through the first drain hose 180 or may be discharged throughthe second drain hose 190 by passing through the third heat exchanger100 and the second heat exchanger 90. Particularly, when ventilation ofthe indoor space 300 is required, the condensed water generated in thefirst heat exchanger 80 may be discharged through the second drain hose190 by passing through the third heat exchanger 100 and the second heatexchanger 90. At this time, the condensed water generated in the firstheat exchanger 80 may be moved to the third heat exchanger 100 and coolthe outdoor air that is introduced through the third inlet hole 71, andthen moved to the second heat exchanger 90 and cool the second heatexchanger 90. On the other hand, when ventilation of the indoor space300 is not required, the condensed water generated in the first heatexchanger 80 may be discharged through the first drain hose 180.

In other words, in response to the third inlet hole 71 is opened, thecondensed water generated in the first heat exchanger 80 may be moved tothe third heat exchanger 100 and exchange heat with the outdoor airintroduced through the third inlet hole 71. The condensed waterheat-exchanged with the outdoor air introduced through the third inlethole 71 in the third heat exchanger 100 may be discharged through thesecond drain hose 190 by passing through the second heat exchanger 90.On the other hand, in response to that the third inlet hole 71 isclosed, the condensed water generated in the first heat exchanger 80 maybe discharged through the first drain hose 180.

In a state in which the air conditioner 1 is operated, instead of beingdischarged directly through the first drain hose 180, the condensedwater generated in the first heat exchanger 80 may be stored in thewater collecting panel 83 of the first heat exchanger 80 and in responseto that the third inlet hole 71 is opened, the stored condensed watermay be supplied to the third heat exchanger 100. The condensed watersupplied to the third heat exchanger 100 may exchange heat with theoutdoor air, which is introduced into the third inlet hole 71, and bedischarged to the second drain hose 190 by passing through the secondheat exchanger 90. In this manner, because the condensed water generatedin the first heat exchanger 80 is supplied to the third heat exchanger100, it is possible to allow the condensed water generated in the firstheat exchanger 80 to exchange heat with the outdoor air, which isintroduced into the third inlet hole 71 and at the same time, thecondensed water generated in the first heat exchanger 80 washes thethird heat exchanger 100.

The air conditioner 1 may be controlled not only by manual control butalso by remote control using a remote control or wireless communicationnetwork.

FIG. 5 is a schematic view illustrating an internal structure of an airconditioner according to another embodiment of the present disclosure.Hereinafter a description the same as that described in FIG. 4 will beomitted. Hereinafter the same reference numerals are assigned to thecomponents having the same names as the components described in FIG. 4 .

As illustrated in FIG. 5 , an air conditioner 11 may further include adrain pump 250 configured to forcibly discharge condensed water. Whencondensed water remains inside the air conditioner 11 even though theair conditioner 11 stops, the condensed water may contaminate the airconditioner 11. In order to keep the air conditioner 11 clean, the drainpump 250 may be operated to discharge the remaining condensed water inresponse to that the operation of the air conditioner 11 stops.Condensed water that is generated during the operation of the airconditioner 11 may be discharged in response to that the operation ofthe air conditioner 11 stops regardless of whether the third inlet hole71 is opened or closed.

The drain pump 250 may be disposed adjacent to the second heat exchanger90. As an example, the drain pump 250 may be disposed on the watercollecting panel 93 or disposed adjacent to the water collecting panel93 to forcedly discharge the condensed water remaining on the watercollecting panel 93 of the second heat exchanger 90.

A drain hose 251 connected to the drain pump 250 may be connected to thesecond drain hose 190. Accordingly, in a state in which the drain pump250 is operated, the condensed water remaining on the water collectingpanel 93 is discharged through the drain hose 251 and the second drainhose 190. Even when the drain pump 250 is operated, the condensed waterremaining on the water collecting panel 93 may be naturally dischargedthrough the second drain hose 190.

In the above description, a case in which the drain pump 250 is disposedadjacent to the second heat exchanger 90 has been mainly described, butthe arrangement position of the drain pump 250 is not limited to theabove example. That is, the drain pump 250 may be disposed adjacent toat least one of the water collecting panel 83 of the first heatexchanger 80 and the water collecting panel 93 of the second heatexchanger 90.

While the present disclosure has been particularly described withreference to exemplary embodiments, it should be understood by those ofskilled in the art that various changes in form and details may be madewithout departing from the spirit and scope of the present disclosure.

The invention claimed is:
 1. An air conditioner, comprising: a cabinetincluding a first inlet hole, a second inlet hole and a third inlethole; a first heat exchanger provided inside the cabinet to exchangeheat with indoor air, introduced through the first inlet hole; a secondheat exchanger provided inside the cabinet to exchange heat with outdoorair introduced through the second inlet hole; and a third heat exchangerprovided inside the cabinet between the first heat exchanger and thesecond heat exchanger along a height direction of the cabinet, andprovided to allow outdoor air introduced through the third inlet holeand condensed water generated in the first heat exchanger to exchangeheat with each other, wherein the condensed water generated in the firstheat exchanger is transferred to the second heat exchanger through thethird heat exchanger, wherein the condensed water generated in the firstheat exchanger and having passed through the first heat exchanger andcondensed water having passed through the second heat exchanger aredischarged to an outside of the air conditioner while an operation ofthe air conditioner is stopped, wherein the condensed water havingpassed through the second heat exchanger is condensed water generated inthe first heat exchanger, having passed through to the second heatexchanger, and having passed through to the third heat exchanger.
 2. Theair conditioner of claim 1, wherein the first heat exchanger comprises awater collecting panel in which the condensed water generated in thefirst heat exchanger is collected, wherein the condensed water collectedin the water collecting panel is moved to the third heat exchanger whilethe third inlet hole is open.
 3. The air conditioner of claim 1, whereinthe second heat exchanger comprises: a distribution panel comprising aplurality of condensate distribution holes to allow condensed water,which passed through the third heat exchanger, to be distributed to thesecond heat exchanger, the distribution panel disposed on an upper endof the second heat exchanger; and a water collecting panel disposed at alower end of the second heat exchanger to collect condensed water passedthrough the second heat exchanger.
 4. The air conditioner of claim 1,further comprising: a damper configured to selectively open and closethe third inlet hole.
 5. The air conditioner of claim 4, furthercomprising: a filter which is replaceable and disposed between thedamper and the third heat exchanger.
 6. The air conditioner of claim 1,wherein the cabinet further comprises a first outlet hole provided toallow air, which passed through the first heat exchanger, to bedischarged into an indoor space, wherein the air conditioner furthercomprises: a first duct provided to connect the first inlet hole, thethird inlet hole, and the first outlet hole, so as to allow the indoorair, which is introduced through the first inlet hole, to be dischargedto the first outlet hole, and to allow the outdoor air, which isintroduced through the third inlet hole, to be discharged to the firstoutlet hole.
 7. The air conditioner of claim 6, further comprising: afirst fan installed in the first duct to move the air, which passedthrough the first heat exchanger, to the first outlet hole.
 8. The airconditioner of claim 6, wherein the cabinet further comprises a secondoutlet hole provided to allow air, which passed through the second heatexchanger, to be discharged to an outdoor space, wherein the airconditioner further comprises: a second duct provided to connect thesecond inlet hole to the second outlet hole, so as to allow the outdoorair, which is introduced through the second inlet hole, to be dischargedto the second outlet hole.
 9. The air conditioner of claim 8, whereinthe first duct and the second duct are separated from each other toprevent air moving along the first duct and air moving along the secondduct from mixing with each other.
 10. The air conditioner of claim 8,further comprising: a second fan installed in the second duct to movethe air, which passed through the second heat exchanger, to the secondoutlet hole.
 11. The air conditioner of claim 1, further comprising: acompressor provided inside the cabinet below the second heat exchangeralong the height direction of the cabinet, the compressor beingconnected to the first heat exchanger and the second heat exchanger,respectively.
 12. An air conditioner comprising: a cabinet including afirst inlet hole, a second inlet hole and a third inlet hole, the firstinlet hole, the second inlet hole and the third inlet hole beingconfigured to be opened and closed; a first heat exchanger provided toexchange heat with indoor air introduced through the first inlet hole; asecond heat exchanger provided to exchange heat with outdoor airintroduced through the second inlet hole; and a third heat exchangerlocated between the first heat exchanger and the second heat exchanger,and provided to allow outdoor air introduced through the third inlethole and condensed water generated in the first heat exchanger toexchange heat with each other while the third inlet hole is open,wherein the condensed water generated in the first heat exchanger istransferred to the second heat exchanger through the third heatexchanger, wherein the condensed water generated in the first heatexchanger and having passed through the first heat exchanger andcondensed water having passed through the second heat exchanger aredischarged to an outside of the air conditioner while an operation ofthe air conditioner is stopped, wherein the condensed water havingpassed through the second heat exchanger is condensed water generated inthe first heat exchanger, having passed through to the second heatexchanger, and having passed through to the third heat exchanger. 13.The air conditioner of claim 12, wherein the first heat exchanger, thesecond heat exchanger, and the third heat exchanger are provided insidecabinet so that the third heat exchanger is located between the firstheat exchanger and the second heat exchanger along a height direction ofthe cabinet.
 14. The air conditioner of claim 12, further comprising: adamper configured to selectively open and close the third inlet hole.15. The air conditioner of claim 14, further comprising: a filter whichis replaceable and disposed between the damper and the third heatexchanger.
 16. The air conditioner of claim 12, wherein the cabinetfurther comprises a first outlet hole provided to allow air, whichpassed through the first heat exchanger, to be discharged into an indoorspace, wherein the air conditioner further comprises: a first flow pathprovided to allow indoor air, which is introduced into the first inlethole, to be discharged to the first outlet hole by passing through thefirst heat exchanger; and a second flow path provided to allow outdoorair, which is introduced into the third inlet hole, to be discharged tothe first outlet hole by sequentially passing through the third heatexchanger and the first heat exchanger, and connected to the first flowpath through the first heat exchanger.
 17. The air conditioner of claim16, wherein the cabinet further comprises a second outlet hole providedto allow air, which passed through the second heat exchanger, to bedischarged to an outdoor space, wherein the air conditioner furthercomprises: a third flow path provided to allow outdoor air, which isintroduced into the second inlet hole, to be discharged to the secondoutlet hole by passing through the second heat exchanger.